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output_http.go
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output_http.go
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package main
import (
"io"
"log"
"sync/atomic"
"time"
"github.com/buger/goreplay/proto"
)
const initialDynamicWorkers = 10
type response struct {
payload []byte
uuid []byte
roundTripTime int64
startedAt int64
}
// HTTPOutputConfig struct for holding http output configuration
type HTTPOutputConfig struct {
redirectLimit int
stats bool
workersMin int
workersMax int
statsMs int
workers int
queueLen int
elasticSearch string
Timeout time.Duration
OriginalHost bool
BufferSize int
CompatibilityMode bool
Debug bool
TrackResponses bool
}
// HTTPOutput plugin manage pool of workers which send request to replayed server
// By default workers pool is dynamic and starts with 10 workers
// You can specify fixed number of workers using `--output-http-workers`
type HTTPOutput struct {
// Keep this as first element of struct because it guarantees 64bit
// alignment. atomic.* functions crash on 32bit machines if operand is not
// aligned at 64bit. See https://github.com/golang/go/issues/599
activeWorkers int64
address string
limit int
queue chan []byte
responses chan response
needWorker chan int
config *HTTPOutputConfig
queueStats *GorStat
elasticSearch *ESPlugin
}
// NewHTTPOutput constructor for HTTPOutput
// Initialize workers
func NewHTTPOutput(address string, config *HTTPOutputConfig) io.Writer {
o := new(HTTPOutput)
o.address = address
o.config = config
if o.config.stats {
o.queueStats = NewGorStat("output_http", o.config.statsMs)
}
o.queue = make(chan []byte, o.config.queueLen)
o.responses = make(chan response, o.config.queueLen)
o.needWorker = make(chan int, 1)
// Initial workers count
if o.config.workersMax == 0 {
o.needWorker <- initialDynamicWorkers
} else {
o.needWorker <- o.config.workersMax
}
if o.config.elasticSearch != "" {
o.elasticSearch = new(ESPlugin)
o.elasticSearch.Init(o.config.elasticSearch)
}
go o.workerMaster()
return o
}
func (o *HTTPOutput) workerMaster() {
for {
newWorkers := <-o.needWorker
for i := 0; i < newWorkers; i++ {
go o.startWorker()
}
}
}
func (o *HTTPOutput) startWorker() {
client := NewHTTPClient(o.address, &HTTPClientConfig{
FollowRedirects: o.config.redirectLimit,
Debug: o.config.Debug,
OriginalHost: o.config.OriginalHost,
Timeout: o.config.Timeout,
ResponseBufferSize: o.config.BufferSize,
CompatibilityMode: o.config.CompatibilityMode,
})
deathCount := 0
atomic.AddInt64(&o.activeWorkers, 1)
for {
select {
case data := <-o.queue:
o.sendRequest(client, data)
deathCount = 0
case <-time.After(time.Millisecond * 100):
// When dynamic scaling enabled workers die after 2s of inactivity
if o.config.workersMin == o.config.workersMax {
continue
}
deathCount++
if deathCount > 20 {
workersCount := int(atomic.LoadInt64(&o.activeWorkers))
// At least 1 startWorker should be alive
if workersCount != 1 && workersCount > o.config.workersMin {
atomic.AddInt64(&o.activeWorkers, -1)
return
}
}
}
}
}
func (o *HTTPOutput) Write(data []byte) (n int, err error) {
if !isRequestPayload(data) {
return len(data), nil
}
buf := make([]byte, len(data))
copy(buf, data)
o.queue <- buf
if o.config.stats {
o.queueStats.Write(len(o.queue))
}
if o.config.workersMax != o.config.workersMin {
workersCount := int(atomic.LoadInt64(&o.activeWorkers))
if len(o.queue) > workersCount {
extraWorkersReq := len(o.queue) - workersCount + 1
maxWorkersAvailable := o.config.workersMax - workersCount
if extraWorkersReq > maxWorkersAvailable {
extraWorkersReq = maxWorkersAvailable
}
if extraWorkersReq > 0 {
o.needWorker <- extraWorkersReq
}
}
}
return len(data), nil
}
func (o *HTTPOutput) Read(data []byte) (int, error) {
resp := <-o.responses
if Settings.debug {
Debug("[OUTPUT-HTTP] Received response:", string(resp.payload))
}
header := payloadHeader(ReplayedResponsePayload, resp.uuid, resp.roundTripTime, resp.startedAt)
copy(data[0:len(header)], header)
copy(data[len(header):], resp.payload)
return len(resp.payload) + len(header), nil
}
func (o *HTTPOutput) sendRequest(client *HTTPClient, request []byte) {
meta := payloadMeta(request)
if Settings.debug {
Debug(meta)
}
if len(meta) < 2 {
return
}
uuid := meta[1]
body := payloadBody(request)
if !proto.IsHTTPPayload(body) {
return
}
start := time.Now()
resp, err := client.Send(body)
stop := time.Now()
if err != nil {
log.Println("Error when sending ", err, time.Now())
Debug("Request error:", err)
}
if o.config.TrackResponses {
o.responses <- response{resp, uuid, start.UnixNano(), stop.UnixNano() - start.UnixNano()}
}
if o.elasticSearch != nil {
o.elasticSearch.ResponseAnalyze(request, resp)
}
}
func (o *HTTPOutput) String() string {
return "HTTP output: " + o.address
}